JP3472081B2 - Facsimile machine and control method of facsimile machine - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention is particularly applicable to ITU-T.
Recommendation V. 34 communications and V.34. 27 ter, V.I. 29, V.I. 1
The present invention relates to a facsimile machine capable of 7 communication.

[0002]

2. Description of the Related Art Conventionally, V. 21, V.I. 27 ter, V.I. 29, V.I. 1
7 communication is executed and V.7 communication is executed. 8, V.I. The signal transmission timings of the signals in the 34 protocols were the same.

For example, after the transmitter finishes transmitting the image signal, P
Transmit the PS-Q signal. Here, the response is received,
When the response signal (specifically, the MCF signal or the PPR signal) from the receiver cannot be received, the PPS signal was transmitted again after the elapse of 3 seconds. In addition, ITU-T Recommendation V. 21, V.I. 27 ter, V.I. 29, V.I. When performing 17 communication, the PPS-Q signal and the PPS-Q signal are in a silent state while being retransmitted. 8, V.I. 34 When executing communication, P
The flag signal was transmitted while the PS-Q signal and the PPS-Q signal were retransmitted.

[0004]

However, in the above-mentioned conventional example, V. 21, V.I. 27 ter, V.I. 29,
V. In No. 17, since the maximum speed of the image signal is 14.4 kb / s, the re-transmission interval of the procedure signal after the image signal is transmitted is not a big problem even for 3 seconds. However, V. 8, V.I. Three
In 4, the maximum speed of the image signal is also 33.6 kb / s,
A4 standard charts are being transmitted in 2 seconds. Therefore, waiting for 3 seconds without receiving one protocol signal is very wasteful.

In addition, the conventional ITU-T Recommendation T. 30 G
As a facsimile machine that executes 3 protocols,
V. 21, V.I. 27 ter, V.I. 29, V.I. There was a facsimile machine that performed 17 communications. Here, control was provided to prevent problems caused by echo. However, in the ITU-T recommendation, V. 8, V.I. T.34 performing communication. 30 G3 protocol is defined and this 8, V.I. T.34 communication. 30 G3 protocol is V.30. 21, V.I. 27 ter, V.I. 29, V.I. 17
T. in communication. It is basically the same as the 30 G3 protocol.

However, the conventional V. 21, V.I. 27te
r, V. 29, V.I. In the 17 communication, in consideration of the selection of the international communication, the control for eliminating the trouble when the echo occurs is provided. 8, V.I. In 34 communication, if the same control is added, it takes time to make a determination,
Further, there is a drawback that communication time becomes long.

Therefore, the present invention is based on the ITU-T Recommendation V.34. Two
1, V.I. 27 ter, V.I. 29, V.I. 17 The control by communication is directly V.17. 8, V.I. If it is applied to the H.34 communication, it causes an increase in the communication time. 8, V.I. Three
(4) An object of the present invention is to provide a facsimile device that can reduce the time required for communication.

[0008]

The first invention of the present application is I
TU-T Recommendation V.3 21, V.I. 27 ter, V.I. 29,
V. 17, V.I. 8, V.I. 34 Fax machine with communication means
In a millimeter device, the above V. 21, V.I. 27ter,
V. 29, V.I. 17 when executing communication and the above V. 8, V.I. Three
Change the transmission timing of the control signal depending on the time of 4 communication execution,
After the transmitter transmits the image information of one page, RNR from the receiver
When a signal is received, the above V. 21, V.I. 27ter,
V. 29, V.I. 17 Retransmits RR signal when executing communication
However, the above V. 8, V.I. 34 When executing communication, from the receiver
Continue sending RR signal until receiving MCF signal
A facsimile machine characterized by the above.

The second invention of the present application is the ITU-T Recommendation V.27.
21, V.I. 27 ter, V.I. 29, V.I. 17, V.I. 8,
V. ITU-T Recommendation T.34. 30 G
In a facsimile machine that executes 3 protocols,
Note V. 21, V.I. 27 ter, V.I. 29, V.I. 17 communications
At the time of execution and the above V. 8, V.I. 34 When executing communication,
Changing the control of echo during Tocol execution, international communication
If selected, the above V. 21, V.I. 27 ter, V.I.
29, V.I. When receiving 17 communications, receive the initial identification signal twice.
After receiving the signal, the transmission to the DCS group signal is started, and the echo
With the presser enabled, the V. 8, V.I. 34
When executing communication, when the initial identification signal is received once,
Characterized by shifting to signal transmission of the DCS group
It is a facsimile machine.

The third invention of the present application is the ITU-T Recommendation V.34.
21, V.I. 27 ter, V.I. 29, V.I. 17, V.I. 8,
V. 34 Control method for facsimile machine having communication means
In the above V. 21, V.I. 27 ter, V.I. 29,
V. 17 when executing communication and the above V. 8, V.I. 34 communication execution
The transmission timing of the control signal is changed depending on the time, and the transmitter becomes 1
After transmitting the page image information, receive the RNR signal from the receiver
If the above-mentioned V. 21, V.I. 27 ter, V.I. 29,
V. 17 communication is executed, the RR signal is retransmitted, and the V.
8, V.I. 34 When executing communication, MCF signal from the receiver
Characterized by continuing to transmit the RR signal until receiving
And a method for controlling a facsimile machine.

The fourth invention of the present application is the ITU-T Recommendation V.34.
21, V.I. 27 ter, V.I. 29, V.I. 17, V.I. 8,
V. ITU-T Recommendation T.34. 30 G
Facsimile machine control method that executes 3 protocols
In the above V. 21, V.I. 27 ter, V.I. 29,
V. 17 when executing communication and the above V. 8, V.I. 34 communication execution
Change the control for echo at the time of protocol execution depending on time.
If international communication is selected, the above V. 21, V.I. Two
7 ter, V.I. 29, V.I. 17 When executing communication, initial knowledge
After receiving another signal twice, move to DCS group signal transmission.
And enable the echo suppressor,
V. 8, V.I. 34 When executing communication, send the initial identification signal once
At the time of reception, shift to signal transmission of DCS group
A method of controlling a facsimile apparatus, characterized in that
It

[0012]

[0013]

[0014]

[0015]

[0016]

[0017]

[0018]

[0019]

[0020]

[0021]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a block diagram showing the structure of a facsimile apparatus according to an embodiment of the present invention.

The NCU (network control unit) 2 is connected to the terminal of the line in order to use the telephone network for data communication,
It controls the connection of the telephone switching network, switches to the data communication path, and holds the loop. Further, the NCU 2 connects the telephone line 2a to the telephone 4 side if the signal level (signal line 20a) from the control circuit 20 is "0", and connects the telephone line 2a if the signal level is "1". It is connected to the facsimile machine side.
In the normal state, the telephone line 2a is connected to the telephone 4 side.

The hybrid circuit 6 separates the transmission system signal and the reception system signal, sends the transmission signal from the addition circuit 12 to the telephone line 2a via the NCU 2, and sends the signal from the other side via the NCU 2. The signal is received and sent to the modulator / demodulator 8 via the signal line 6a.

The modulator / demodulator 8 complies with ITU-T Recommendation V.6. 8,
V. 21, V.I. 27 ter, V.I. 29, V.I. 17, V.I.
Which performs modulation and demodulation based on 34,
Each transmission mode is designated by the signal line 20c. The modulator / demodulator 8 inputs the signal output to the signal line 20b, outputs the modulated data to the signal line 8a, inputs the received signal output to the signal line 6a, and inputs the demodulated data to the signal line 8b. Output.

The ANSam transmission circuit 10 is a circuit for transmitting an ANSam signal. When the signal of the signal level "1" is output to the signal line 20d, the ANSam signal is transmitted to the signal line 10a and is transmitted to the signal line 20d. When the signal of the signal level "0" is being output, no signal is output to the signal line 10a.

The adder circuit 12 inputs the information of the signal line 8a and the information of the signal line 10a, and adds the result of addition.
It is output to a. The reading circuit 14 reads an image of a document and outputs the read image data to the signal line 14a. The recording circuit 16 sequentially records the information output to the signal line 20e line by line.

The memory circuit 18 is used for storing raw information of read data or encoded information, and also for storing received information, decoded information and the like.

In the first embodiment of the present invention, the control circuit 20 uses the ITU-T recommendation V.30. 21, V.I. 27 ter, V.I. Two
9, V.I. 17, V.I. 8, V.I. 34 in a facsimile machine having a communication means. 21, V.I. 27ter,
V. 29, V.I. 17 When executing communication, 8, V.I. When the communication is executed, the control signal is controlled so that the transmission timing of the control signal is changed. Specifically, V.I. 21, V.I. 27
ter, V.I. 29, V.I. 17 When executing communication, the transmitter is P
When there is no response from the receiver upon receiving the response after transmitting the PS-Q signal, the PPS-Q signal is retransmitted after 3 seconds have passed, and when the receiver receives the PPS-Q signal, the PPS-Q signal is changed to the PPS-Q signal. On the other hand, the MCF signal is transmitted only once. In addition, V. 8, V.I. 34 When executing the communication, when the transmitter transmits the PPS-Q signal, the transmitter continues to transmit the PPS-Q signal until it receives the MCF signal from the receiver, and the receiver receives the PPS-Q signal.
When the PS-Q signal is received and the MCF signal is transmitted, this transmission is continued until one 40 consecutive signals are detected from the transmitter.

The exchange of the above procedure signals is shown in FIG. In FIG. 10, the upper side is V. 21, V.I. 27t
er, V.E. 29, V.I. 17 communications, and the lower side is V.17. 8,
V. 34 communication and both are MCs transmitted from the receiver
In this example, the transmitter cannot receive the F signal once. Also, the figure
11 is the V.11 in this embodiment. 8, V.I. 34 communication is shown in contrast to the conventional procedure. The upper side shows the procedure of this embodiment and the lower side shows the procedure and signal exchange of the conventional example, both of which are examples in which the MCF signal transmitted by the receiver cannot be received once by the transmitter.

Further, when the transmitter receives the RNR signal from the receiver after transmitting the image information of one page, the V.V. 21,
V. 27 ter, V.I. 29, V.I. 17 When executing communication, R
The R signal is retransmitted, and V. 8, V.I. When 34 communication is executed, the transmission of the RR signal is continued until the MCF signal from the receiver is received.

2 to 9 are flow charts showing the flow of control of the control circuit 20.

In FIG. 2, the operation starts at S0 and S2
Then, the signal of the signal level "0" is output to the signal line 20a to turn off the CML. In S4, a signal of signal level "0" is output to the signal line 20d to turn off the CML.

In S6 and S8, it is determined whether the call and the call are selected, respectively. When the call is selected, the process proceeds to S12. When the call is selected, the process proceeds to S106, and both are selected. If not, the process proceeds to S10 to perform other processing.

In S12, a signal of signal level "1" is output to the signal line 20d to turn on the CML. In S14, a pre-procedure is performed. In S16, the other machine is H.34 communication function is determined, and V.34 communication function is set. 34 has a communication function, the process proceeds to S66 and V.34. If it does not have the 34 communication function, the process proceeds to S18.

In S18, the V. 21 pre-procedure, and V. 27 ter, V.I. 29, V.I. 17 images are transmitted.
In S22, it is determined whether or not there is a next page. If there is a next page, the process proceeds to S26, and if there is no next page, the process proceeds to S24. 21. Perform the post procedure.

At S26, 3 is set in Counter. In S28, following the preamble signal 1 second, PP
The S-MPS signal is converted to V. Send one in 21 mode. S3
At 0, Timer 4 is set to 3 seconds.

In S32, S34, S36 and S38, T
Within a time period of the imager 4, V.I. It is determined whether or not the MCF signal, the PPR signal, and the RNR signal in the 21 mode are received, and V.21. When the MCF signal in the 21 mode is received, the process proceeds to S20, and the V. When the PPR signal in the 21 mode is received, the process proceeds to S20 and the V.21. When the RNR signal in the 21 mode is received, the process proceeds to S46, and when the Timer4 times out, the process proceeds to S40.

At S40, the value of Counter is incremented by one. In S42, it is determined whether the value of Counter is 0 or less, and if it is 0 or less, PPS,
Since the MPS signal has been transmitted three times, the process proceeds to S44, where the V.V. When one DCN signal is transmitted in 21 mode and the Counter is 1 or more, S28
Proceed to.

At S46, Timer 5 is set to 60 seconds. In S48, 3 is set in Counter. In S50, after 1 second of the preamble signal, V.
One RR signal is transmitted in 21 mode. In S52, T
Set 3 seconds for imager4.

In S54, the V. It is determined whether or not the MCF signal in the 21 mode is received. If the MCF signal is received, the process proceeds to S20, and if the MCF signal is not received, the process proceeds to S56.

In S56, it is determined whether or not the Timer 5 has timed out, and if timed out, the process proceeds to S44, and if not, the process proceeds to S58.

In S58, the V. It is determined whether or not the RNR signal in the 21 mode is received, and if the RNR signal is received, the process proceeds to S48, and if the RNR signal is not received, the process proceeds to S60.

In S60, it is determined whether or not Timer4 has timed out.
When the time is over, the process proceeds to S62.

In S62, the value of Counter is decremented by one. In S64, it is determined whether or not Counter is 0 or less. If it is 0 or less, the process proceeds to S44,
If it exceeds 0, the process proceeds to S50.

In S66, the V. 8 steps, V68 in S68. Three
4 pre-procedure, V70 in S70. 34 images are transmitted sequentially. Then, in S72, it is determined whether or not there is a next page. 34 Post-procedure
If there is a next page, proceed to S76.

In S76, after transmitting and receiving the Sh, Sh _* , ALT and E signals, the preamble signal is transmitted for 250 mS.
In S78, Timer 4 is set to 10 seconds. S8
0, V. In 34 control channels, P
Continuous transmission of PS-MPS signals is performed.

In S82, the V. It is determined whether the MCF signal on the 34 control channels is received, and the MCF signal is received.
When the signal is received, the process proceeds to S90, and when the MCF signal is not received, the process proceeds to S84.

In S84, the V. It is determined whether or not the PPR signal on the 34 control channels is received, and the PPR signal is received.
When the signal is received, the process proceeds to S94, and when the PPR signal is not received, the process proceeds to S86.

In S86, the V. Determining whether or not it has received the RNR signal at 34 the control channel, RNR
When the signal is received, the process proceeds to S98, and when the RNR signal is not received, the process proceeds to S88.

In S88, it is determined whether or not Timer4 has timed out, and if timed out, the process proceeds to S2, and if not, the process proceeds to S80.

In S90, "1" is continuously sent. And
In S92, the V. MC on 34 control channels
It is determined whether or not the end of the F signal is detected. If the end of the MCF signal is detected, the process proceeds to S70, and if the end of the MCF signal is not detected, the process proceeds to S90.

In S94, "1" is continuously sent. Then, in S96, the V. It is determined whether or not the end of the PPR signal on the 34 control channels is detected, and the PPR signal is detected.
When the end of the signal is detected, the process proceeds to S70, and when the end of the PPR signal is not detected, the process proceeds to S94.

In S98, Timer 5 is set to 60 seconds. In S100, the V. Continuous transmission of RR signals is performed on 34 control channels. In S102, the V. It is determined whether or not the MCF signal has been received on the 34 control channel, and if the MCF signal is received, S9
If the MCF signal is not received, the process proceeds to S104.

In S104, it is determined whether or not Timer5 has timed out, and if timed out, the process proceeds to S2. If not, the process proceeds to S100.

In S106, the signal of the signal level "1" is output to the signal line 20a to turn on the CML. In S108, a pre-procedure is performed. In S110, the V.V. Three
It is determined whether or not there is a communication function of No. 4 and V.4. 34 communication function, the process proceeds to S132, and the V. 34 S without communication function
Proceed to 112.

In S112, the V. 21 pre-procedure.
In S114, the V. 27 ter, V.I. 29, V.I. The image signal at 17 is received. In S118, the V. It is determined whether or not the PPS-EOP signal in the 21 mode is received. The post-procedure 21 is executed, and if not received, the process proceeds to S120.

In S120, the V. PPS in 21 mode
-It is determined whether or not the MPS signal is received. If the MPS signal is received, the process proceeds to S126, and if not, the process proceeds to S122.

In S122, it is determined whether or not Timer2 has timed out, and if timed out, the process proceeds to S2, and if not, the process proceeds to S118.

In S126, it is determined whether or not the received image signal has an error frame. If there is an error frame, the process proceeds to S130, and after sending the preamble signal for 1 second, the V.V. Two
One PPR signal is transmitted in 1 mode, and if there is no error frame, the process proceeds to S127.

In S127, it is determined whether or not the next page can be received. When the next page can be received, the process proceeds to S128, and after sending the preamble signal for 1 second, the V.V. M in 21 mode
If one CF signal is transmitted and the next page cannot be received, S
Proceed to 186.

In S132, the V. 8 procedures, V134 in S134. 34 pre-procedure, V136 in S136. Reception of 34 picture signals,
In S138, the V. S of 34 control channel signals
After the h, Sh _* , ALT, and E signals are transmitted / received, the flag is transmitted (Sh _* is a phase inversion signal of Sh, and Sh is shown with an overline in the drawing) S
At 140, Timer 2 is set to 10 seconds. S1
42, V.42. Continuous transmission of flags is performed on 34 control channels.

In S144, the V. It is determined whether or not the PPS- EOP signal on the control channel of No. 34 is received, and if it is received, the process proceeds to S150, and the V. After 34, the procedure is executed, and if not received, the process proceeds to S146.

In S146, the V. It is determined whether the PPS-MPS signal on the control channel No. 34 has been received, and if so, the process proceeds to S152, and if not received, S1.
Proceed to 48.

In S148, it is determined whether or not Timer2 has timed out, and if timed out, the process proceeds to S2, and if not, the process proceeds to S142.

In S152, the V. It is judged whether the flag of 34 control channels has been transmitted for 250 mS or more. If the flag has not been transmitted for 250 mS or more, the process proceeds to S154, and the flag is transmitted so that the total is 250 mS.
If the flag is transmitted for 50 mS or more, the process proceeds to S156.

In S156, it is determined whether or not there is an error frame in the received image signal. If there is an error frame, the process proceeds to S158, where V. Continuous transmission of PPR signal on 34 control channels, and S
Proceed to 164.

In S160, it is determined whether or not 40 "1" s have been detected. If detected, the process proceeds to S136, and if not detected, the process proceeds to S162.

In S162, it is determined whether or not Timer2 has timed out, and if timed out, the process proceeds to S2, and if not, the process proceeds to S158.

In S164, it is determined whether or not the next page can be received, and if the next page can be received, the process proceeds to S166 and the V. If the MCF signal is continuously transmitted on the 34 control channel and the next page cannot be received, the process proceeds to S172.

In S168, it is determined whether 40 "1" s have been detected, and if 40 "1s" are detected, S136
Go to step S170, and if 40 "1" s are not detected, go to step S170.

In S170, it is determined whether or not Timer2 has timed out, and if timed out, the process proceeds to S2. If not, the process proceeds to S166.

At S172, Timer 5 is set to 60 seconds. S174 is a V. The RNR signal is continuously transmitted on the 34 control channels.

In S176, it is determined whether or not the next page can be received, and if so, the process proceeds to S180,
V. The MCF signal is continuously transmitted on the 34 control channels, and if not possible, the process proceeds to S178.

In S178, it is determined whether or not Timer5 has timed out, and if timed out, the process proceeds to S2. If not, the process proceeds to S174.

In S182, it is determined whether or not 40 "1" s are detected. If detected, the process proceeds to S136, and if not detected, the process proceeds to S184.

In S184, Timer5 determines whether or not the time is over, and if the time is over, S2 is reached.
If the time is not over, the process proceeds to S180.

At S186, Timer 5 is set to 60 seconds. In S188, the V.V. One RNR signal in 21 mode is transmitted.

In S190, the V. It is determined whether or not the RR signal in the 21 mode is received, and if it is received, the process proceeds to S194, and if not received, the process proceeds to S192.

In S192, Timer5 determines whether or not the time is over, and if the time is over, S2 is reached.
If the time is not over, the process proceeds to S190.

In S194, it is determined whether or not the next page can be received. If yes, the process proceeds to S128, and if not, the process proceeds to S188.

In the first embodiment described above, PP
Although the transmission and reception of the S-MPS signal has been described as an example, the PPS
-EOM signal, PPS-EOP signal, PPS-NULL
The same can be applied to signal transmission / reception.

Next, a second embodiment of the present invention will be described.

FIG. 12 is a block diagram showing the structure of the facsimile apparatus according to the second embodiment.

The facsimile apparatus in this embodiment is
In addition to the configuration of the facsimile apparatus of the first embodiment, an international communication selection button 22 and an international communication selection display circuit 24 are provided.

The international communication selection button 22 is a button for selecting international communication. When this button 22 is pressed,
A depression pulse is generated on the signal line 22a.

The international communication selection display circuit 24 is a circuit for displaying whether or not international communication is selected.
When a clear pulse is generated at 0f, the display is not performed and "displayed" every time a pressing pulse is generated at the signal line 22a.
→ Repeat “Do not display” → “Display”. The international communication selection display circuit 24 outputs a signal of signal level "1" to the signal line 24a when "displaying", and outputs a signal of signal level "0" to the signal line 24a when "not displaying". Is output.

Further, in the second embodiment, the control circuit 20
ITU-T Recommendation T. In a facsimile apparatus that executes the G3 protocol of V.30, 21, V.I. 27te
r, V. 29, V.I. 17 communication means, V.I. 8, V.I. 34 communication means, and the control for echo at the time of protocol execution is changed according to these communication means.

Specifically, the following control is mainly performed. V.
21, V.I. 27 ter, V.I. 29, V.I. When communication is performed by the 17 communication means, a response is received when a protocol signal is transmitted, and when the protocol signal transmitted by the own device is received, it is determined as an echo and this signal is ignored. On the other hand, V.
8, V.I. When communication is performed by the No. 34 communication means, echo determination is not performed in response reception when a protocol signal is transmitted.

When international communication is selected, V. Two
1, V.I. 27 ter, V.I. 29, V.I. When the communication by the 17 communication means is executed, after receiving the initial identification signal (DIS signal) twice, the process proceeds to the transmission of the DCS group signal and the echo suppressor is enabled. On the other hand, V. 8, V.I.
34 When performing communication by the communication means, an initial identification signal (DIS
(Signal) is received once, it shifts to signal transmission of the DCS group.

Since the other construction is the same as that of the first embodiment, the description thereof will be omitted and the same reference numerals will be used for the description.

13 to 19 are floats showing the flow of control of the control circuit 20 in the second embodiment.

In FIG. 13, the operation is started in S200, and in S202, a clear pulse is generated on the signal line 20f and the international communication selection display circuit 24 does not display. S20
In 4, it is judged whether or not the facsimile transmission is selected, and when the facsimile transmission is selected, the process proceeds to S208,
If the facsimile transmission is not selected, the process proceeds to S206 and other processes are performed. In S207, the signal of the signal level "0" is output to the signal line 20a to turn off the CML, and the S
Proceed to 204.

In S208, the signal of the signal level "1" is output to the signal line 20a, and the CML is turned on. In S210, the information of the signal line 24a is input, and the international communication selection circuit 2
It is determined whether or not 4 is displayed, and if it is displayed, S2
12. If not displayed, proceed to S272.

In S212, the T1 timer is set to 35 seconds. In S214, S216, and S218, V.I. 21 DIS signal or V.21. No. 8 ANSam signal is detected, and V.8 is detected. When the DIS signal of 21 is detected, S22
0, V.0. When the ANSam signal of 8 is detected, S28
4. When the T1 timer times out in S4, S204
Proceed to.

In S220, it is judged from the detected DIS signal, and the partner machine determines V. 34, it is determined whether the communication function of 34, the process proceeds to S282, and V.34.
If there is no communication function of 34, the process proceeds to S222 and the second DI
Move to reception of S signal.

In S222 and S224, the V. It is judged whether the DIS signal of No. 21 is detected, When the DIS signal of 21 is detected, the process proceeds to S226, and when the T1 timer times out, S
Proceed to 204.

In S226, the V. 21 NSS / TSI /
Transmission of DCS signal, Tr (training) in S228
-Transmission of TCF signal, V230 in S230. 21 receives the CFR signal, and in S232, the V. 27 ter, V.I. 29,
V. 17 image signals are sequentially transmitted.

In S234, S236, and S238, the information of the next page is determined, and if it is not a page break, S240.
Go to V. Execute the intermediate procedure of 21 at the page break
If there is no next page, the process proceeds to S242 and the V. 21 is executed, and if there is a next page at a page break and there is a mode change, the process proceeds to S244, and V. If the intermediate step 21 is executed, there is a next page at a page break, and there is no mode change, the process proceeds to S246.

In the description of this second embodiment, this S246
The control to which the present invention is applied will be described in detail with respect to the subsequent processing.

In S246, 0 is set in the counter Counter that counts the number of retransmissions of the PPS-MPS signal three times. In S248, the V. 21 PPS-MPS signal is transmitted.

At S250, the flag PPSDET indicating that the PPS-MPS signal has been detected is cleared. S
At 252, the T4 timer is set to 3 seconds.

In S254, the V. 21 It is determined whether or not a significant signal is detected. RNR signals, PIP signals, and PIN signals are not considered as significant signals here. Then, if a significant signal is detected, the process proceeds to S262, and if no significant signal is detected, the process proceeds to S256.

In S256, it is determined whether or not the T4 timer has timed out.
254, and when the time is over, proceed to S258,
Increment the value of Counter by one.

In S260, it is determined whether or not the value of Counter is 3 or more. If it is 3 or more, the process proceeds to S204, and if it is less than 3, the process proceeds to S248.

In S262, S264, and S266, the detected significant signal is determined, and if a PPS-MPS signal is detected, the process proceeds to S268 . If an MCF signal or PPR signal is detected, the process proceeds to S232.
Go to 4.

At S268, whether the flag PPSDET is 0, that is, after transmitting the PPS-MPS signal this time,
For the first time, it is determined whether or not a PPS-MPS signal is received, and if PPSDET is 0, the process proceeds to S270 and the PPS
If DET is set to 1 and PPSDET is not 0, PP
It is an error to receive the PPS-MPS signal twice after transmitting the S-MPS signal, and the process proceeds to S204.

In S272, the T1 timer is set to 35 seconds. In S274, S276, and S278, V.I. 21 DIS signal or V.21. No. 8 ANSam signal is detected, and V.8 is detected. When the DIS signal of 21 is detected, S28
0, V.0. When the ANSam signal of 8 is detected, S28
4. When the T1 timer times out in S4, S204
Proceed to.

In S280, the V. The DIS signal of No. 21 is detected, and it is judged from this signal, and the other device is 34, it is judged whether or not there is a communication function, and 34, the process proceeds to S282, and V.34. 34 If there is no communication function, S22
Go to 6.

In S282, V. 8 CI signal transmission, S
In 284, V. 8 ANSam signal is received. 8 CM signal transmission, S.288 V. 8 JM
Signal reception, V.S. 8 CJ signals are transmitted.

Next, in S291, the T1 timer is reset to 35 seconds, and in S292, the V. 34 line probing signal is transmitted. 34 long training signals are transmitted.

In S296, the V. It is determined whether or not the DIS signal of No. 34 is detected, the process proceeds to S302 if detected, and the process proceeds to S298 if not detected.

In S298, it is determined whether or not the T1 timer has timed out, and if it has timed out, S204
Proceed to step S300 if the time is not over,
V. 34 flags are transmitted.

In S302, the V. 34 NSS / TSI /
DCS signal transmission, V304 in S304. 34 flags are transmitted. In S306, the V. No. 34 CFR signal is received, and if not received, the process proceeds to S304.
Upon reception, the process proceeds to S308 and the V. 34 consecutive 1s are transmitted.

At S310, the V. 34, it is determined whether or not the flag of No. 34 is detected, and V.34. If no flag of No. 34 is detected, the process proceeds to S312 and the V. If no flag of 34 is not detected, the process proceeds to S308.

In S312, the V. 34 primary channel signals are transmitted. S314, S316, S318
Then, if the information of the next page is determined and it is not a page break, the process proceeds to S320, and V.I. When the intermediate procedure of 34 is performed and there is no next page at the page break, the process proceeds to S322,
V. 34, perform the post-procedure, and if there is a next page at a page break, and if there is a mode change, proceed to S324, Three
4 is performed, and there is a next page at a page break, and if there is no mode change, the process proceeds to S326.

In the description of the second embodiment, this S326
The control to which the present invention is applied will be described in detail with respect to the subsequent processing.

In S326, 0 is set in the counter Counter that counts the number of times the PPS-MPS signal is retransmitted three times. In S328, the V. 34 PPS-MPS signals are transmitted.

In S330, the T4 timer is set to 3 seconds. In S332, the V. It is determined whether 34 significant signals have been detected. The significant signal here is the RNR
Signals, PIP signals, and PIN signals are not considered.
When a significant signal is detected , the process proceeds to S342 and is detected.
If not , the process proceeds to S334 and the V. 34 flags are transmitted.

In S336, it is determined whether or not the T4 timer has timed out.
332, when the time is over, proceed to S338,
Increment the value of Counter by one.

In S340, it is determined whether or not the value of Counter is 3 or more. If it is 3 or more, the process proceeds to S204, and if it is less than 3, the process proceeds to S328.

In S342 and S344, the detected V. Three
4 significant signal is determined, and if it is an MCF signal, S34
6, the process proceeds to S346 if the signal is the PPR signal, and the process proceeds to S204 otherwise.

In S346, the V. 34 consecutive 1s are transmitted, and in S348, the V. It is determined whether or not the flag of No. 34 is detected. If not detected, the process proceeds to S346, and if detected, the process proceeds to S312.

In the above description of the second embodiment, the case where only the PPS-MPS signal is used as the control of the response reception after the transmission of the PPS-Q signal is explained. However, other PPS-EOM signals and PPS- NULL signal, PPS-
The same applies to the EOP signal.

Further, in the above second embodiment, whether or not the international communication is selected is selected by pressing the button, but instead, information indicating whether or not the international communication is selected is displayed. It is also possible to register the one-touch dial or the speed dial and control the reception of the DIS signal twice based on these pieces of information.

In the above embodiment, the ITU-T Recommendation V.10 is used. 8, V.I. Although the facsimile communication based on 34 has been described, the present invention can be applied to a facsimile apparatus based on a communication protocol having a function of the same system as such a recommendation.

In the above embodiments, the stand-alone type facsimile apparatus has been described as an example, but the present invention is not limited to this, and for example, a copy function, an electronic file function, and a data processing function are combined with a communication function. Of course, it can be applied to the facsimile communication control in the integrated data processing system.

[0127]

[0128]

According to the inventions described in claims 1 and 3, V.I.
8, V.I. 34 When executing the communication, after receiving the information of the primary channel, for example, if the decoding process of the primary channel information is not suitable and the RNR signal is transmitted, and immediately thereafter, the decoding process of the primary channel information is finished, It is possible to immediately transmit the MCF signal without waiting for several hundred mS by the preamble signal, and then shift to the reception of the primary channel information, thereby shortening the communication time.

[0129]

According to the inventions of claims 2 and 4, V.I. Two
1, V.I. 27 ter, V.I. 29, V.I. In the 17 communication, it is possible to appropriately handle the international communication, the reliability of the communication is increased, and 8, V.I. In 34 communication, malfunction due to error processing and extension of communication time in the pre-procedure are eliminated.

[Brief description of drawings]

FIG. 1 is a block diagram showing a first embodiment of the present invention.

FIG. 2 is a flowchart showing the operation of the first embodiment.

FIG. 3 is a flowchart showing the operation of the first embodiment.

FIG. 4 is a flowchart showing the operation of the first embodiment.

FIG. 5 is a flowchart showing the operation of the first embodiment.

FIG. 6 is a flowchart showing the operation of the first embodiment.

FIG. 7 is a flowchart showing the operation of the first embodiment.

FIG. 8 is a flowchart showing the operation of the first embodiment.

FIG. 9 is a flowchart showing the operation of the first embodiment.

FIG. 10 is an explanatory diagram showing a communication procedure of the first embodiment.

FIG. 11 is an explanatory diagram showing the communication procedure of the first embodiment in comparison with the related art.

FIG. 12 is a block diagram showing a second embodiment of the present invention.

FIG. 13 is a flowchart showing the operation of the second embodiment.

FIG. 14 is a flowchart showing the operation of the second embodiment.

FIG. 15 is a flowchart showing the operation of the second embodiment.

FIG. 16 is a flowchart showing the operation of the second embodiment.

FIG. 17 is a flowchart showing the operation of the second embodiment.

FIG. 18 is a flowchart showing the operation of the second embodiment.

FIG. 19 is a flowchart showing the operation of the second embodiment.

[Explanation of symbols]

2 ... NCU, 4 ... phone, 6 ... hybrid circuit, 8 ... Modem, 10 ... ANSam sending circuit, 12 ... Adder circuit, 14 ... reading circuit, 16 ... Recording circuit, 18 ... Memory circuit, 20 ... Control circuit, 22 ... International communication selection button, 24 ... International communication selection display circuit.

Front page continuation (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04N 1/32-1/36 H04N 1/42-1/44

Claims (4)

(57) [Claims] 1. ITU-T Recommendation V. 21, V.I. 27te
r, V. 29, V.I. 17, V.I. 8, V.I. 34 communication means
In the facsimile machine having the above-mentioned V. 21, V.I. 27 ter, V.I. 29, V.I. 17 copies
When executing the communication, 8, V.I. 34 When executing communication, control
After changing the transmission timing of the control signal, the transmitter transmits the image information of one page, and then the RNR from the receiver.
When a signal is received, the above V. 21, V.I. 27ter,
V. 29, V.I. 17 communication is executed, the RR signal is retransmitted, and 8, V.I. 34 When executing communication, M from the receiver
A facsimile machine, characterized in that transmission of an RR signal is continued until a CF signal is received. 2. ITU-T Recommendation V.3 21, V.I. 27te
r, V. 29, V.I. 17, V.I. 8, V.I. 34 communication means
ITU-T Recommendation T.C. Runs 30 G3 protocols
In a facsimile machine that does this, the above V. 21, V.I. 27 ter, V.I. 29, V.I. 17 copies
When executing the communication, 8, V.I. 34 When executing communication,
When the control for the echo during the execution of the protocol is changed and the international communication is selected, the above V. 21, V.I. 27t
er, V.E. 29, V.I. When executing the 17th communication, after receiving the initial identification signal twice, it shifts to the transmission of the signal of the DCS group, the echo suppressor is enabled, and the above V. 8, V.I. 34. A facsimile apparatus characterized by shifting to transmission of a DCS group signal when an initial identification signal is received once during 34 communication execution. 3. ITU-T Recommendation V.3 21, V.I. 27te
r, V. 29, V.I. 17, V.I. 8, V.I. 34 communication means
In the method of controlling the facsimile machine, the method described in V. 21, V.I. 27 ter, V.I. 29, V.I. 17 copies
When executing the communication, 8, V.I. 34 When executing communication, control
After changing the transmission timing of the control signal, the transmitter transmits the image information of one page, and then the RNR from the receiver.
When a signal is received, the above V. 21, V.I. 27ter,
V. 29, V.I. 17 Retransmits RR signal when executing communication
However , the above V. 8, V.I. 34 When executing communication, M from the receiver
The CF signal until it receives, child continues to send RR signal
And a method for controlling a facsimile apparatus, characterized by: 4. ITU-T Recommendation V.3 21, V.I. 27te
r, V. 29, V.I. 17, V.I. 8, V.I. 34 communication means
ITU-T Recommendation T.C. Runs 30 G3 protocols
In the method of controlling a facsimile machine according to the above V. 21, V.I. 27 ter, V.I. 29, V.I. 17 copies
When executing the communication, 8, V.I. 34 When executing communication,
When the control for the echo during the execution of the protocol is changed and the international communication is selected, the above V. 21, V.I. 27t
er, V.E. 29, V.I. 17 When executing communication, initial identification
After receiving the signal twice, shift to DCS group signal transmission
Then, the echo suppressor is enabled and the above V. 8, V.I. 34 When executing the communication, the initial identification signal
When it receives once, it shifts to DCS group signal transmission.
A method of controlling a facsimile machine, characterized by performing the method.